JP4012302B2 - Body fat scale - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a body fat meter, and more specifically, a key used for inputting body data of a subject necessary for obtaining a body fat percentage and starting measurement of body impedance is used for impedance measurement or the like. The present invention relates to a body fat meter that is configured with a key that is smaller in number than in the past by using also an electrode.
[0002]
[Prior art]
In recent years, body fat percentage has attracted attention from the viewpoint of maintaining health. Since increasing body fat percentage can cause adult diseases, it is useful for health management to know body fat percentage. As a method for measuring the body fat percentage, a body fat scale of a hand-held type or a weight scale with a body fat percentage measuring function is known. In such a body fat scale, a current path is formed in the body of the subject and the impedance in the current path is measured, and the body is based on the measured value and body data such as height and weight input by the subject. The mainstream is to calculate fat percentage.
[0003]
In such a body fat scale, a numeric keypad is usually provided to input the body data. In addition to the numeric keypad, a start key for starting impedance measurement is also provided. However, providing a ten key requires at least 10 keys, and adding a start key to this requires a total of 11 keys, which is not preferable in terms of product cost. In addition, since a certain space for installing these keys is required, it is not preferable when it is intended to produce a smaller body fat meter.
[0004]
As a solution to this problem, there is a body fat scale that includes, as data input keys, an increment key that increases in value each time it is pressed and a decrement key that decreases in value each time it is pressed instead of a numeric keypad. If the data input key is used as the increment key and the decrement key, the ten numeric keys can be reduced to two, and the manufacturing cost can be reduced and the body fat scale can be downsized.
[0005]
[Problems to be solved by the invention]
However, when it is intended to further reduce the manufacturing cost of the internal fat meter, or to make a smaller internal fat meter, the intended purpose can be achieved only by using the increment key and the decrement key as data input keys. There are cases where it is not possible.
[0006]
Accordingly, an object of the present invention is to provide a body fat scale with a further reduced number of necessary keys.
[0007]
[Means for Solving the Problems]
The internal fat meter of the present invention obtains the body fat percentage based on the impedance measured in the current path formed in the body of the subject and the body data of the subject, and is an electrode composed of two pairs of electrodes. Has a group. This electrode group includes a pair of current path forming electrodes that form a current path in the body of the subject and another pair of impedance measurement electrodes that measure impedance in the current path formed by the current path forming electrodes. Yes. Moreover, the internal fat meter of the present invention includes one or a plurality of data input keys for inputting the subject's body data, and some or all of the data input keys are one or more of the electrode groups. The electrode is also used. Then, body data is input by a contact operation by the body to the electrode that is also used. In this way, by using both the electrode and the data input key, the number of keys can be reduced as compared with the conventional case.
[0008]
The combined use of the data input key and the electrode included in the electrode group can be realized by connecting a detection circuit for detecting contact with the body to the shared electrode. In a body fat scale provided with a detection circuit, contact to the electrode that is also used is detected by the detection circuit, and body data of the subject is input according to the number of times of contact or according to the contact time.
[0009]
The combined use of the data input key and the electrode can also be realized by configuring the shared electrode with a movable part and a push button provided below the movable part. In this configuration, the pressing button is pressed by the contact operation with the movable part, and the body data of the subject is input according to the number of pressing times or the pressing time.
[0010]
According to the internal fat meter of the present invention, any electrode of the electrode group can also be used as a start key for starting impedance measurement. In this configuration, the measurement of impedance is started by a contact operation by the body to the electrode that is also used. In this way, by using both the electrode and the start key, the number of keys can be reduced as compared with the conventional case.
[0011]
The common use of the start key and the electrode included in the electrode group is realized by connecting a detection circuit for detecting contact with the body to the shared electrode. In a body fat scale provided with a detection circuit, contact with an electrode that is also used is detected by the detection circuit, whereby the measurement of impedance by the electrode group is started.
[0012]
The combined use of the start key and the electrode can also be realized by configuring the shared electrode with a movable part and a press button provided below the movable part. In this configuration, the pressing button is pressed by the contact operation of the electrode with the movable portion, and thereby the impedance measurement by the electrode group is started.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a plan view of a body fat scale according to one embodiment of the present invention. The body fat scale 10 of this embodiment has a first gripping part 11 shown on the left side of the figure and a second gripping part 12 shown on the right side. An operation display panel 15 is provided at the center between the upper and lower support portions 13 and 14 that connect the grip portions 11 and 12. The operation display panel 15 includes a display unit 16 for displaying body data necessary for calculating the body fat percentage and a body fat percentage as a measurement result, and first and second current path forming electrodes 23, as will be described later. An input selection key 17 for selecting an item of body data input by 24 and a start key 18 for starting measurement of impedance are provided.
[0014]
A first impedance measurement electrode 21 and a second impedance measurement electrode 22 are provided below the first grip portion 11 and the second grip portion 12, respectively . In addition, a first current path forming electrode 23 and a second current path forming electrode 24 are provided on the upper side of the first grip portion 11 and the second grip portion 12, respectively. Impedance measuring electrodes 21 and 22 are for measuring impedances in current paths formed in the body of the subject by the current path forming electrodes 23 and 24 when the subject grips the grip portions 11 and 12 by hand. It is provided.
[0015]
FIG. 2 is a rear view of the body fat scale 10 of FIG. 1 as viewed from the back side of the paper. In the internal fat meter 10 of this embodiment, the first current path forming electrode 23 is also used as a data input key for inputting body data such as the height, weight, age, and sex of the subject. That is, as shown in FIG. 2, the electrode 23 is also used as a data input key by providing a movable portion 25 on the first current path forming electrode 23 and providing a push button 26 below the movable portion 25. Has been. 3 is a cross-sectional view of the first current path forming electrode 23 of FIG. As shown in FIG. 3, a space 29 is provided below the movable portion 25 of the first current path forming electrode 23, and a push button 26 is provided in this space 29. Therefore, as shown in FIG. 3, the movable portion 25 bends when pressed by the subject's finger 30, and the push button 26 is pressed by the deflection of the movable portion 25.
[0016]
Similarly, the second current path forming electrode 24 is also used as a data input key for inputting body data. The electrode 24 is also used as a data input key by providing a movable portion 27 on the electrode 24. This is realized by providing a push button 28 below the portion 27. As in FIG. 3, the push button 28 is pressed by the bending of the movable portion 27.
[0017]
In the present embodiment, the first current path forming electrode 23 is set as an increment key that increases in value each time the movable portion 26 is pressed, and the second current path forming electrode 24 is pressed every time the movable portion 27 is pressed. It is set as a decrement key that decreases the value. Therefore, when inputting the body data of the subject by the first current path forming electrode 23 and the second current path forming electrode 24, the numerical value is increased by pressing the movable part 26 or the numerical value is decreased by pressing the movable part 27. Is done. Specific items of the subject's body data to be input, that is, items such as height, weight, age, and sex are selected by the input selection key 17 as described above.
[0018]
The body fat scale 10 of the present embodiment having the above configuration is used as follows. First, the subject holds the first holding part 11 with the left hand and the second holding part 12 with the right hand. As a result, the first current path forming electrode 23 and the first impedance measuring electrode 21 are in contact with the left hand, and the second current path forming electrode 24 and the second impedance measuring electrode 22 are in contact with the right hand. In this state, the subject selects specific input items of the subject's body data by pressing the input selection key 17 with the thumb of the right hand, for example. Thereby, the input item name is displayed on the display unit 16. Next, the test subject pushes the movable part 25 of the first current path forming electrode 23 with the index finger of the left hand as shown in FIG. 3 to increase the numerical value of the display part, or the movable part of the second current path forming electrode 24. By pressing 27 to decrease the value on the display, the correct value for that item is set. Next, the input selection key 17 is pressed again with the thumb of the right hand to select the next input item, and a numerical value is input in the same manner as described above.
[0019]
When input is completed for all items, the subject presses the start key 18 (FIG. 1) with, for example, the thumb of the left hand. Thereby, a current path is formed in the body of the subject through the first impedance measurement electrode 21 and the second impedance measurement 22. The impedance in this current path is measured by the first current path forming electrode 23 and the second current path forming electrode 24.
[0020]
When the impedance measurement is completed, the body fat percentage of the subject is calculated based on the measured value of the impedance and the body data of the subject input in advance as described above, and the result is displayed on the display unit 16.
[0021]
In the above description, the impedance measurement is started by pressing the start key 18. However, the start key 18 is omitted, and the start key 18 is replaced with the first current path forming electrode 23 or the second current path forming electrode. 24 can also be used. In the case of the configuration in which the start key 18 is omitted, after all the input items have been input, the movable portion 25 of the first current path forming electrode 23 or the second current path forming electrode that is also used as the start key. The measurement of impedance is started by pressing the 24 movable parts 27.
[0022]
FIG. 4 is a perspective view of a body fat scale 40 according to another embodiment of the present invention. The body fat scale 40 of this embodiment starts measurement of impedance by a main body 41, a display unit 45 provided on the upper surface of the main body 41, an input selection key 49 for selecting an item of input body data. And a start key 48.
[0023]
A first current path forming electrode 43 and a second current path forming electrode 44 are provided on the upper surface edge of the main body 41, and the first impedance measurement electrode 46 and the second current path forming electrode 44 are provided on the lower surface edge of the main body 41. Two impedance measurement electrodes 47 are provided.
[0024]
The functions of the first and second current path forming electrodes 43 and 44 and the first and second impedance measurement electrodes 46 and 47 are the same as those of the above-described internal fat meter 10 of FIG.
[0025]
Also in the internal fat meter 40 of this embodiment, the first current path forming electrode 43 and the second current path forming electrode 44 are also used as data input keys for inputting the body data of the subject. The dual use of the electrodes 43 and 44 as a data input key is realized by connecting a detection circuit (not shown) for detecting contact with the body to the first current path forming electrodes 43 and 44. This detection circuit can also be used as an impedance measurement circuit, and may be configured using a known circuit that detects a potential change due to contact with the body. In the internal fat meter 40 of the present embodiment provided with the detection circuit, the first current path forming electrode 43 is set as an increment key whose numerical value increases every time the subject touches with a finger, and the second current path forming electrode 44 is set as a decrement key whose numerical value decreases with each contact. Therefore, the input of the body data of the subject is performed by increasing the numerical value by touching the first current path forming electrode 43 or by decreasing the numerical value by contacting the second current path forming electrode 44. A specific item of the physical data of the subject to be input is selected by the input selection key 49.
[0026]
The body fat scale 40 of the present embodiment having the above configuration is used as follows. First, the subject presses the input selection key 49 to select a specific input item of the subject's body data. Thereby, the input item name is displayed on the display unit 45. Next, by contacting the first current path forming electrode 43 or the second current path forming electrode 44 and increasing or decreasing the numerical value of the display unit 45, the correct value of the item is set. Next, the input selection key 49 is pressed again to select the next input item, and a numerical value is input in the same manner as described above.
[0027]
When input is completed for all items, the subject presses the start key 48 with his / her finger, and then the subject touches the first impedance measurement electrode 46 and the second impedance measurement electrode 47 with the left hand and the right thumb respectively. Then, the internal fat meter 40 is provided so that the left and right index fingers touch the first current path forming electrode 43 and the second current path forming electrode 44, respectively. Thus, a current path is formed in the body of the subject via the first impedance measurement electrode 46 and the second impedance measurement electrode 47, and the impedance in this current path is the first current path formation. It is measured by the electrode 43 and the second current path forming electrode 44.
[0028]
When the impedance measurement is completed, the body fat percentage of the subject is calculated based on the measured value of the impedance and the body data of the subject input in advance as described above, and the result is displayed on the display unit 45.
[0029]
In the above description, the impedance measurement is started by pressing the start key 48. However, the start key 48 is omitted, and the start key 48 is replaced by the first current path forming electrode 43 and the second current path forming electrode. 44, the first impedance measurement electrode 46 and the second impedance measurement electrode 47 can be used together. In the case where the start key 48 is omitted in this way, after all the input items have been input, the impedance measurement is started by contacting the electrode that is also used.
[0030]
FIG. 5 is a perspective view of a body fat scale 50 according to another embodiment of the present invention. The body fat scale 50 of this embodiment is the same as the body fat scale 40 of FIG. 4. The body 51, the display unit 55 provided on the upper surface of the body 51, and an item of input body data are selected. An input selection key 59 and a start key 58 for starting impedance measurement are provided.
[0031]
A first current path forming electrode 53 and a second current path forming electrode 54 are provided on the upper surface edge of the main body 51. In the internal fat meter 50 of this embodiment, the first current path forming electrode 53 is also used as a data input key for inputting the body data of the subject. The use of the electrode 53 as a data input key is realized by providing the first current path forming electrode 53 with a movable portion 61 and providing a push button 62 below the movable portion 61. 6 is a cross-sectional view taken along the line Q-Q in FIG. As shown in FIG. 6, in the second current path forming electrode 54, a space 65 is provided below the movable portion 63, and a push button 64 is provided in this space 65. Accordingly, as shown in FIG. 6, the movable part 63 is pressed by the index finger 66 of the subject, and the pressing button 64 is thereby pressed.
[0032]
Similarly, the first current path forming electrode 53 is also used as a data input key for inputting body data. The electrode 53 is also used as a data input key by providing the movable portion 61 on the electrode 53 and moving the first current path forming electrode 53. This is realized by providing a push button 62 below the portion 61. Then, similarly to FIG. 6, the pressing button 62 is pressed by pressing the movable portion 61.
[0033]
Also in this embodiment, the first current path forming electrode 53 is set as an increment key whose value increases every time the movable portion 53 is pressed, and the second current path forming electrode 54 is set to the movable portion 63. It is set as a decrement key that decreases each time is pressed. Therefore, the input of the body data of the subject by the first current path forming electrode 53 and the second current path forming electrode 54 is to increase the numerical value by pressing the movable portion 53 or decrease the numerical value by pressing the movable portion 63. Is done. The specific item of the body data of the subject to be input is selected by the input selection key 59 as described above.
[0034]
The internal fat meter 50 of the present embodiment having the above configuration is used as follows. First, the subject presses the input selection key 59 to select a specific input item of the subject's body data. Thereby, the input item name is displayed on the display unit 55. Next, by pressing the movable part 61 of the first current path forming electrode 53 or the movable part 63 of the second current path forming electrode 54 to increase or decrease the numerical value of the display unit 55, the correct value of the item is obtained. Set. Next, the input selection key 59 is pressed again to select the next input item, and a numerical value is input in the same manner as described above.
[0035]
When input is completed for all items, the subject presses start key 58 with his / her finger. Next, the subject touches the movable part 61 of the first current path forming electrode 53 and the movable part 63 of the second current path forming electrode 54 with the index finger of each of the left hand and the right hand, and the thumbs of the left hand and the right hand respectively. Has the internal fat meter 50 so as to be in contact with the first impedance measurement electrode 56 and the second impedance measurement electrode 57. Thereby, a current path is formed in the body of the subject via the first impedance measurement electrode 56 and the second impedance measurement electrode 57, and the impedance in this current path is the first current path formation. It is measured by the electrode 53 and the second current path forming electrode 54.
[0036]
When the impedance measurement is completed, the body fat percentage of the subject is calculated based on the measured value of the impedance and the body data of the subject input in advance as described above, and the result is displayed on the display unit 55.
[0037]
Also in this embodiment, the start key 58 is omitted, and the start key 58 is replaced with the first current path forming electrode 53, the second current path forming electrode 54, the first impedance measuring electrode 56, and the second impedance measuring electrode 57. In this case, after all the input items have been input, the measurement of impedance is started by touching the electrode that is also used as the start key 58.
[0038]
In each of the above embodiments, the case where the current path forming electrode and the data input key are used has been described. However, in the present invention, the data input key can also be used as the impedance measurement electrode. Further, in each of the above embodiments, a case has been described in which the electrode that is also used is set as an increment key whose value increases each time it is pressed or a decrement key whose value decreases each time it is pressed. Further, the electrode that is also used can be used as an increment key that increases when the electrode is pressed for a predetermined time or longer, or as a decrement key that decreases when the key is pressed for a predetermined time or longer.
[0039]
【The invention's effect】
According to the present invention, the electrodes constituting the electrode group for measuring the impedance by forming a current path in the body also serve as the data input key for inputting the body data of the subject. A body fat scale with a greatly reduced number can be obtained. In addition, according to the present invention, since the start key for starting the impedance measurement can also be used by the electrodes constituting the electrode group, it is possible to obtain a body fat meter that further reduces the number of necessary keys. Can do. Therefore, according to the present invention, it is possible to reduce the manufacturing cost of the internal fat meter by reducing the number of necessary keys, and to obtain a smaller internal fat meter than the conventional one.
[Brief description of the drawings]
FIG. 1 is a plan view of a body fat scale according to an embodiment of the present invention.
2 is a rear view of the body fat scale of FIG. 1 when viewed from the back side of the paper. FIG.
3 is a cross-sectional view taken along line PP in FIG. 2;
FIG. 4 is a perspective view of a body fat scale according to another embodiment of the present invention.
FIG. 5 is a perspective view of a body fat scale according to another embodiment of the present invention.
6 is a cross-sectional view taken along line QQ in FIG.
[Explanation of symbols]
10, 40, 50 Body fat scale 11 First gripping part 12 Second gripping part 13, 14 Supporting part 15 Operation display panel 16, 45, 55 Display part 17, 49, 59 Input selection keys 18, 48, 58 Start Keys 23, 43, 53 First current path forming measurement electrodes 24, 44, 54 Second current path forming measurement electrodes 21, 46, 56 First impedance measuring electrodes 22, 47, 57 Second impedance measuring electrode 25 27, 53, 61, 63 Movable part 26, 28, 62, 64 Press button 41, 51 Body

Claims (5)

A body fat scale that calculates body fat percentage based on impedance measured in a current path formed in the body of the subject and body data of the subject,
An electrode group having a pair of current path forming electrodes that form the current path in the body of the subject, and a pair of impedance measurement electrodes that measure impedance in the current path formed by the current path forming electrodes;
One or more data input keys for inputting the physical data of the subject;
With
A part or all of the data input key is also used as one or a plurality of electrodes of the electrode group, and the electrode that is also used is an increment key or a numerical value that is increased by a contact operation by the body. A body fat scale, wherein the body data is inputted by functioning as a decrement key that decreases .   A detection circuit that detects contact with a body is connected to the electrode that is also used as the data input key, and the body data is input according to the number of contacts detected by the detection circuit. The internal fat meter according to 1.   2. A detection circuit for detecting contact with a body is connected to the electrode that is also used as the data input key, and the body data is input according to a contact time detected by the detection circuit. Body fat meter as described.   The electrode, which is also used as the data input key, has a movable part and a push button provided below the movable part and pressed by a contact operation to the movable part, and the number of times the push button is pressed The body fat scale according to claim 1, wherein the body data is input.   The electrode that is also used as the data input key has a movable part and a push button that is provided below the movable part and is pressed by a contact operation to the movable part. The body fat meter according to claim 1, wherein the body data is input.

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